The Hund paradox and stabilization of molecular chiral states

Berlin, Yu. A.; Burin, Alexander L.; Goldanskii, Vitalii V.

doi:10.1007/s004600050048

Cited by 26 publications

(26 citation statements)

References 29 publications

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“…Following Kagan and Maksimov [104,105] (for biophysical applications of their results see also Ref. [106]), one can decompose this rate into two contributions of incoherent (single phonon) and coherent (multi-phonon) channels…”

Section: Simplifying the Energy Landscape: A Modified Two Level Approachmentioning

confidence: 99%

Spectroscopy of proteins at low temperature. Part I: Experiments with molecular ensembles

Berlin

Burin

Friedrich

et al. 2006

Physics of Life Reviews

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Section: Simplifying the Energy Landscape: A Modified Two Level Approachmentioning

confidence: 99%

Spectroscopy of proteins at low temperature. Part I: Experiments with molecular ensembles

Berlin

Burin

Friedrich

et al. 2006

Physics of Life Reviews

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“…A mechanism exists whereby racemization can occur through a stabilization process involving phonons (i.e. vibratory excess) at very low temperatures as is consistent with much of interstellar space [28].…”

Section: Comets Asteroids and Other Interstellar Mattermentioning

confidence: 71%

Galactic distribution of chirality sources of organic molecules

Helman

2018

Acta Astronautica

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Conceptualizing planetary habitability depends on understanding how living organisms originated and what features of environments are essential to foster abiogenesis. Estimates of the abundance of life's building blocks are confounded by incomplete knowledge of the role of chirality and racemization in organic compounds in the origination of living organisms. Chirality is an essential feature of enzymes as well as many lock-and-key type structures. There are four known processes that can act on complex organic molecules to promote racemization for abiogenesis: quantum-tunneling effects; selection via interaction with circularly polarized light (CPL); templating processes; and interactions with electrical and magnetic (EM) fields. These occur in different places, respectively: cold interstellar space; regions of space with energetic photons, dust and/or magnetic fields; and mineral surfaces (for both templating and EM fields). Chirality as a feature of terrestrial life suggests neither a special place for local development of homochirality nor for extra-terrestrial enrichment and delivery. The presence of these molecules in three competing scenarios for life's origin-chemical gardens, geothermal fields, and ice substrates-relies on a framework of hypothesis and estimation. An easily-modified worksheet is included in the supplemental material that allows a user to generate different scenarios and data related to the distribution of chiral organic molecules as building blocks for living organisms within the galaxy. A simple hypothetical mechanism for planetary magnetic field reversals, based on a high-density plasma inner core, is also presented as a means to aid in estimating field polarity and hence the orientation of racemization processes based on planetary magnetic fields.

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“…More recently, Hund's paradox was formulated in a slightly stronger version (Berlin, Burin and Goldanskii 1996): why do chiral molecules have a definite chirality?…”

Section: -Linking Physics and Chemistry: The Problem Of Molecular Smentioning

confidence: 99%

A new application of the modal-Hamiltonian interpretation of quantum mechanics: The problem of optical isomerism

Fortín

Lombardi

González

2018

Studies in History and Philosophy of Science Part B: Studies in

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The Hund paradox and stabilization of molecular chiral states

Cited by 26 publications

References 29 publications

Spectroscopy of proteins at low temperature. Part I: Experiments with molecular ensembles

Spectroscopy of proteins at low temperature. Part I: Experiments with molecular ensembles

Galactic distribution of chirality sources of organic molecules

A new application of the modal-Hamiltonian interpretation of quantum mechanics: The problem of optical isomerism

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